BACKGROUND OF THE INVENTION1. Technical Field
The present invention relates to an apparatus for holding open a mouth of a bag for facilitating placing material into the bag.
2. Description of the Prior Art
Large brown paper bags are commonly used to collect and dispose of material such as lawn clippings, leaves, and the like. When such a bag is new, the mouth of the bag has a tendency to not remain open by itself when there is nothing inside the bag. Therefore, in order to initially place material into the bag, the mouth of the bag must be held open in some manner, such as by a person.
It can be cumbersome for a person trying to place material into a bag to hold the mouth of the bag open. Thus, an apparatus which holds the mouth of a bag open so that material can be placed into the bag is desirable.
It is also desirable for such an apparatus to be simple and cost-effective to manufacture.
SUMMARY OF THE INVENTIONThe present invention is an apparatus for holding open a mouth of a bag, which mouth is defined by side walls of the bag, for facilitating placing material into the bag. The apparatus comprises a one-piece rectangular frame member made of a resilient material. The frame member has four side portions which preferably lie substantially in a common plane constituting a first condition of the frame member. The four side portions are for engaging interior side walls of the bag. The side portions of the frame member define a rectangular outer perimeter of the frame member and a window in the frame member through which material is placed into the bag. The outer perimeter of the frame member is slightly larger than the mouth of the bag measured in a plane perpendicular to the side walls of the bag.
The frame member may be used in two ways. First, the frame member may be inserted into the bag and then moved to a position engaging and tensioning the side walls of the bag to hold the bag open. Frictional contact between the side portions of the frame member and the side walls of the bag holds the frame in the position. Second, the frame member may be manually deformed to a second condition in which the four side portions do not lie in a common plane. The frame member may be deformed inside the bag or outside of the bag. The frame member, if deformed outside the bag, is then positioned inside the bag while in the deformed condition. The frame member resiliently springs back toward the first condition where the four side portions lie in a common plane, whereby the side portions of the frame member engage the interior side walls of the bag and tension the interior side walls and hold the mouth of the bag open.
BRIEF DESCRIPTION OF THE DRAWINGSFurther features of the present invention will become apparent to those skilled in the art to which the present invention relates from reading the following description with reference to the accompanying drawings, in which:
FIG. 1 is a perspective illustration of an apparatus for holding open a mouth of a bag;
FIG. 2 is a top view of the apparatus shown in FIG. 1;
FIG. 3 is a sectional view taken alongline 3--3 in FIG. 2;
FIG. 4 is a view similar to FIG. 3 showing an alternate construction of the invention; and
FIG. 5 is a view similar to FIG. 3 showing another alternate construction of the invention.
DESCRIPTION OF PREFERRED EMBODIMENTSThe present invention relates to an apparatus for holding open a mouth of a bag for facilitating placing material into the bag. The present invention is applicable to various types of bags. As representative of the present invention, FIG. 1 illustrates anapparatus 10 for holding abag 20 open.
Thebag 20 is constructed of paper and is primarily used to collect and dispose of lawn clippings, leaves, and the like. Thebag 20 is rectangular in cross-section and includes a first pair ofopposing side walls 22 which have an equal length L1. A second pair ofopposing side walls 26 which have an equal length L2, extend between the first pair ofside walls 22. The second pair ofside walls 26 are shorter in length than the first pair ofside walls 22. In the preferred embodiment shown in FIG. 1, the length L1 of the first pair ofside walls 22 is approximately 16 inches long and the length L2 of the second pair ofside walls 26 is approximately 12 inches long. The length of the side walls can, of course, be different than the preferred embodiment.
The first and second pairs ofside walls 22 and 26 extend from afirst end 30 of thebag 20 to asecond end 32 of the bag. At thefirst end 30 of thebag 20, abottom wall 34 extends perpendicular to and interconnects the first and second pairs ofside walls 22 and 26. Thebottom wall 34 and the first and second pairs ofside walls 22 and 26 together define acompartment 38 inside thebag 20. At thesecond end 32 of thebag 20, anedge 39 defines anopen mouth 40 which lies in a horizontal plane that is parallel to thebottom wall 34 of the bag.
Theapparatus 10 comprises a one-piece frame 50 made of a resilient material. Theframe 50 is rectangular in shape. Theframe 50 includes a first pair ofopposing side portions 52 and a second pair ofopposing side portions 56. The first and second pairs ofside portions 52 and 56 of theframe 50 preferably lie in a single common plane which constitutes a first condition of the frame.
The first pair ofopposing side portions 52 have an equal length L3 and are parallel to each other. The second pair ofopposing side portions 56 have an equal length L4 and are also parallel to each other. In the illustrated embodiment, the second pair ofside portions 56 are shorter in length than the first pair ofside portions 52. The first and second pairs ofside portions 52 and 56 are interconnected at four 90°corners 60.
The length L3 of the first pair ofside portions 52 of theframe 50 is slightly larger than the length L1 of the first pair ofside walls 22 of thebag 20. The length L4 of the second pair ofside portions 56 of theframe 50 is slightly larger than the length L2 of the second pair ofside walls 26 of thebag 20. In the preferred embodiment shown in FIG. 1, the length L3 of the first pair ofside portions 52 is approximately 16 to 16.25 inches long and the length L4 of the second pair ofside portions 56 is approximately 12 to 12.25 inches long.
The first and second pairs ofside portions 52 and 56 and thecorners 60 together define anouter perimeter 62 for theframe 50. Thus, in the preferred embodiment, the dimensions of theouter perimeter 62 are approximately equal to the lengths L3 and L4 of the first and second pairs ofside portions 52 and 56, respectively, or approximately 12 to 12.25 inches wide and approximately 16 to 16.25 inches long. The first and second pairs ofside portions 52 and 56 also define a window 64 (or opening) which extends through theframe 50.
Theframe 50 is one piece and preferably made from a homogeneous metallic material, such as a length ofsteel rod 70 as is illustrated in FIG. 2. Thus, theframe 50 is monolithic. The length ofsteel rod 70 is preferably 3/16 inches in diameter but could have a different diameter. The length ofsteel rod 70 shown has a circular cross-section, but could have a cross-section of a different shape. The fourcorners 60 of theframe 50 are formed by bending the length ofsteel rod 70 into the rectangular shape shown.
In the preferred embodiment, one of the second pair ofside portions 56 of theframe 50 includes anoverlap section 72. Theoverlap section 72 is formed by overlapping oppositeterminal end portions 74 and 76 of the length ofsteel rod 70 and welding them together (FIGS. 2 and 3). The welding can be at one location or at plural locations. Theoverlap portion 72 forms a part of oneside portion 56.
The resilient material of theframe 50 permits the frame to be manually deformed from the first condition to a second condition. In the second condition, either one or both of the first and second pairs ofside portions 52 and 56 of theframe 50 are curved to an extent. The second condition of theframe 50 is not one specific geometric shape, but rather any one of many shapes that the frame may take when manually deformed. The curvature of either or both of the first and second pairs ofside portions 52 and 56 extends in a vertical direction, as indicated by arrow A in FIG. 1. Thus, in the second condition, the first and second pairs ofside portions 52 and 56 of theframe 50 no longer lie in a common plane.
Theapparatus 10 can be installed into thebag 20 in any number of ways, for example, by first inserting one of the second pair ofside portions 56 of theframe 50 through themouth 40 of the bag. Theentire frame 50 is then inserted through themouth 40 of thebag 20 as shown by dashed lines in FIG. 1. Theframe 50 is rotated inside thebag 20, as indicated by the arrows B in FIG. 1, such that the first and second pairs ofside portions 52 and 56 of the frame are adjacent but not engaging the first and second pairs ofside walls 22 and 26, respectively, of the bag.
Theframe 50 is now manually deformed from its first condition toward its second condition by moving either or both of the first and second pairs ofside portions 52 and 56 toward one another, causing curvature in theside portions 52 and 56 such that the side portions no longer line in a common plane. Theframe 50 is then moved to its final installed location adjacent themouth 40 of thebag 20. Preferably, the final location of theframe 50 should be about four inches below themouth 40 of thebag 20. If theframe 50 is too far from themouth 40, the mouth could tend to close because of the flexible nature of the material of thebag 20.
It should be apparent that theframe 50 could, alternatively, be manually deformed outside thebag 20 and inserted into the bag in its second deformed condition.
When the manual pressure on theframe 50 is released, the first and second pairs ofside portions 52 and 56 spring back toward the first condition of the frame in which the side portions lie in a common plane and, thus, spring into engagement with the first and second pairs ofside walls 22 and 26, respectively, of thebag 20. Because theouter perimeter 62 of theframe 50 is larger than themouth 40 of thebag 20, the frame tensions at least one pair of the first and second pairs ofside walls 22 and 26 of the bag, thereby keeping the frame in place and themouth 40 of the bag open. In the preferred embodiment, all fourside walls 22 and 26 of the bag are tensioned.
Another way in which theapparatus 10 can be installed into thebag 20 is by placing theframe 50 through themouth 40 of the bag with the frame tilted at an angle relative to the horizontal plane of the mouth. Theframe 50 is then slowly drawn in an upward direction, indicated by arrow A in FIG. 1, into a substantially level position adjacent themouth 40 of thebag 20. As theframe 50 is being drawn up to the substantially level position, at least one pair of the first and second pairs ofside portions 52 and 56 engage and tension at least one pair of the first and second pairs ofside walls 22 and 26 of thebag 20 to hold themouth 40 of the bag open. In the preferred embodiment, all fourside walls 22 and 26 of the bag are tensioned. Theframe 50 is held in the substantially level position in thebag 20 by frictional contact between theside portions 52 and 56 of the frame and the engagedside walls 22 and 26 of the bag.
With themouth 40 of thebag 20 being held open by theframe 50, material may be placed into thecompartment 38 in the bag by inserting it through theopen mouth 40 and through thewindow 64 defined by the frame. Once a sufficient quantity of material has been placed into thebag 20, themouth 40 of the bag will remain open by itself, and theframe 50 can be removed. Theframe 50 is removed by reversing either of the procedures set forth above. Theframe 50 can then be used with another bag if desired.
An alternate construction of the invention is shown in FIG. 4. In FIG. 4, the frame 50' is a one-piece resilient rod made of a homogeneous plastic material. Thus, the frame 50' is monolithic. The plastic frame 50' is identical to theframe 50 described above except that the first and second pairs of side portions 52' and 56' of the plastic frame 50' have a larger diameter than the pairs ofside portions 52 and 56 of thesteel rod frame 50. Further, the plastic frame 50' does not include anoverlap section 72. The plastic frame 50' is illustrated as having a circular cross-section, but could have a cross-section of a different shape. Functionally, the plastic frame 50' operates in the same manner as described above for thesteel rod frame 50.
Another alternate construction of the invention is shown in FIG. 5. In FIG. 5, theframe 50" is a one-piece resilient rod made of a homogeneous rubber material. Thus, theframe 50" is monolithic. Therubber frame 50" is identical to theframe 50 described above except that the first and second pairs ofside portions 52" and 56" of therubber frame 50" have a larger diameter than the pairs ofside portions 52 and 56 of thesteel rod frame 50. Further, therubber frame 50" does not include anoverlap section 72. Therubber frame 50" is illustrated as having a circular cross-section, but could have a cross-section of a different shape. Functionally, therubber frame 50" operates in the same manner as described above for thesteel rod frame 50.
From the above description of the invention, those skilled in the art will perceive improvements, changes and modifications. For example, the frame member could be sized accordingly for use with a larger bag, such as a bag which is approximately 12 inches wide and approximately 18 inches long. Such improvements, changes and modifications within the skill of the art are intended to be covered by the appended claims.